Forum for Science, Industry and Business

Mercyhurst sportsmed works with NFL on managing spinal injuries

18.09.2012

The NFL season is off and running and with it comes the proverbial hamstring injury, the torn tendon, the groin strain – injuries that players have come to expect as part of this high-energy contact sport. Far less top of mind is the rare but catastrophic cervical spine injury, but that’s exactly the injury that Mercyhurst University researchers are working with Sports Medicine Concepts and the National Football League (NFL) to mitigate.

One tragic example came Sept. 8 when Tulane University safety Devon Walker fractured his spine in a head-on collision with a teammate as he was attempting to make a tackle. He underwent a three-hour surgery and was still on a ventilator as of Monday, Sept. 17.

“These types of injuries are rare, but they carry the potential for major lifelong disability and that’s the reason for our research,” said Bradley Jacobson, chair of the Mercyhurst University Sportsmedicine Department. “What’s most important to the successful care of these injured athletes is their on-field management.”

Jacobson and graduate student Jacob Gdovin spent the summer presenting their research on proper protocols for managing the on-field care of football players with apparent cervical cord injuries to medical staffs of NFL teams. Working with Mike Cendoma, CEO of Sports Medicine Concepts of Livonia, N.Y., they presented to the New York Giants, Houston Texans, New York Jets, Dallas Cowboys and Indianapolis Colts. The daylong sessions were directed at team neurosurgeons, orthopedic surgeons, athletic trainers and paramedics.

“Because these types of injuries are infrequent, the protocols for handling them probably aren’t practiced as much as they should be,” Jacobson said. “How to remove equipment with minimal movement to the player; how to access exposure to the chest for compressions and the airway for ventilations while stabilizing the head and neck efficiently … Every staff member needs to know his or her specific role. And, while each NFL team has its own ways of doing this, we have found some work better than others.”

Cendoma has been consulting with the NFL since 1995 on a variety of injuries, concussions and spinal cord trauma among them. The research he has done with Jacobson these past two years has further validated the process with quantitative data, he said.

“The NFL has done a good job of making sure that all the medical professional skill sets required to properly manage on-field emergencies are accounted for; we show them how to work together to ensure that all the skills are effectively choreographed so that the multi-disciplined sports medicine team is capable of providing the highest level of care,” Cendoma said.

Nearly 12,000 new cases of spinal cord injuries occur each year with sports-related events causing approximately 7.6 percent of them,” said Jacobson, citing statistics from the National Spinal Cord Injury Statistical Center. Of those attributed to athletics, football tallies the largest number of overall catastrophic cervical spine injuries.

Few football fans can forget Buffalo Bills tight end Kevin Everett, who suffered a serious spinal injury in his team’s season opener in 2007. Prior to safety Devon Walker’s injury earlier this month was the high-profile case of Rutgers University defensive tackle Eric LeGrand, who suffered a debilitating spinal cord injury while making a tackle in the fourth quarter of a game against Army in 2010.

Jacobson, meanwhile, is the lead author on an article recently accepted for publication in the Journal of Athletic Training titled “Cervical Spine Motion during American Football Equipment Removal Protocols: A Challenge to the All-or-Nothing Endeavor.” The article is based on two years of research, completed in part at the motion analysis lab of the Erie Shriner’s Hospital for Children in collaboration with Kevin Cooney, RPT, Dustin Bruening, Ph.D., and Cendoma.

Meanwhile, Gdovin, a graduate student in Mercyhurst’s organizational leadership program who completed his undergraduate training in sports medicine and pre-med last year, said the opportunity to participate in this groundbreaking research and to present to the NFL was “amazing.

“To watch highly skilled medical staffs practice administering these protocols was rewarding, and they were receptive, especially when we were able to show them things they hadn’t thought of.”

Jacobson and Gdovin said they looking forward to working with Sports Medicine Concepts to provide training for other NFL teams next summer as individual team medical personnel look to improve on-field emergency response and the NFL works towards standardizing emergency management protocols.

Die letzten 5 Focus-News des innovations-reports im Überblick:

Physicists of the University of Würzburg have made an astonishing discovery in a specific type of topological insulators. The effect is due to the structure of the materials used. The researchers have now published their work in the journal Science.

Topological insulators are currently the hot topic in physics according to the newspaper Neue Zürcher Zeitung. Only a few weeks ago, their importance was...

In recent years, lasers with ultrashort pulses (USP) down to the femtosecond range have become established on an industrial scale. They could advance some applications with the much-lauded “cold ablation” – if that meant they would then achieve more throughput. A new generation of process engineering that will address this issue in particular will be discussed at the “4th UKP Workshop – Ultrafast Laser Technology” in April 2017.

Even back in the 1990s, scientists were comparing materials processing with nanosecond, picosecond and femtosesecond pulses. The result was surprising:...

A multi-institutional research collaboration has created a novel approach for fabricating three-dimensional micro-optics through the shape-defined formation of porous silicon (PSi), with broad impacts in integrated optoelectronics, imaging, and photovoltaics.

Working with colleagues at Stanford and The Dow Chemical Company, researchers at the University of Illinois at Urbana-Champaign fabricated 3-D birefringent...

In experiments with magnetic atoms conducted at extremely low temperatures, scientists have demonstrated a unique phase of matter: The atoms form a new type of quantum liquid or quantum droplet state. These so called quantum droplets may preserve their form in absence of external confinement because of quantum effects. The joint team of experimental physicists from Innsbruck and theoretical physicists from Hannover report on their findings in the journal Physical Review X.

“Our Quantum droplets are in the gas phase but they still drop like a rock,” explains experimental physicist Francesca Ferlaino when talking about the...